nimbus-eth2/tests/consensus_spec/test_fixture_fork_choice.nim

422 lines
15 KiB
Nim

# beacon_chain
# Copyright (c) 2018-2022 Status Research & Development GmbH
# Licensed and distributed under either of
# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
# at your option. This file may not be copied, modified, or distributed except according to those terms.
{.used.}
import
# Standard library
std/[json, os, sequtils, strutils, tables],
# Status libraries
stew/results, chronicles,
eth/keys, taskpools,
# Internals
../../beacon_chain/spec/[helpers, forks, state_transition_block],
../../beacon_chain/spec/datatypes/[
base,
phase0, altair, bellatrix],
../../beacon_chain/fork_choice/[fork_choice, fork_choice_types],
../../beacon_chain/[beacon_chain_db, beacon_clock],
../../beacon_chain/consensus_object_pools/[
blockchain_dag, block_clearance, block_quarantine, spec_cache],
# Third-party
yaml,
# Test
../testutil, ../testdbutil,
./fixtures_utils
# Test format described at https://github.com/ethereum/consensus-specs/tree/v1.2.0-rc.1/tests/formats/fork_choice
# Note that our implementation has been optimized with "ProtoArray"
# instead of following the spec (in particular the "store").
type
OpKind = enum
opOnTick
opOnAttestation
opOnBlock
opOnMergeBlock
opOnAttesterSlashing
opInvalidateRoot
opChecks
Operation = object
valid: bool
# variant specific fields
case kind: OpKind
of opOnTick:
tick: int
of opOnAttestation:
att: Attestation
of opOnBlock:
blck: ForkedSignedBeaconBlock
of opOnMergeBlock:
powBlock: PowBlock
of opOnAttesterSlashing:
attesterSlashing: AttesterSlashing
of opInvalidateRoot:
invalidatedRoot: Eth2Digest
latestValidHash: Eth2Digest
of opChecks:
checks: JsonNode
from ../../beacon_chain/spec/datatypes/capella import
BeaconBlock, BeaconState, SignedBeaconBlock
proc initialLoad(
path: string, db: BeaconChainDB,
StateType, BlockType: typedesc
): tuple[dag: ChainDAGRef, fkChoice: ref ForkChoice] =
let
forkedState = loadForkedState(
path/"anchor_state.ssz_snappy",
StateType.toFork)
blck = parseTest(
path/"anchor_block.ssz_snappy",
SSZ, BlockType)
when BlockType is capella.BeaconBlock:
let signedBlock = ForkedSignedBeaconBlock.init(capella.SignedBeaconBlock(
message: blck,
# signature: - unused as it's trusted
root: hash_tree_root(blck)
))
elif BlockType is bellatrix.BeaconBlock:
let signedBlock = ForkedSignedBeaconBlock.init(bellatrix.SignedBeaconBlock(
message: blck,
# signature: - unused as it's trusted
root: hash_tree_root(blck)
))
elif BlockType is altair.BeaconBlock:
let signedBlock = ForkedSignedBeaconBlock.init(altair.SignedBeaconBlock(
message: blck,
# signature: - unused as it's trusted
root: hash_tree_root(blck)
))
elif BlockType is phase0.BeaconBlock:
let signedBlock = ForkedSignedBeaconBlock.init(phase0.SignedBeaconBlock(
message: blck,
# signature: - unused as it's trusted
root: hash_tree_root(blck)
))
else: {.error: "Unknown block fork: " & name(BlockType).}
ChainDAGRef.preInit(db, forkedState[])
let
validatorMonitor = newClone(ValidatorMonitor.init())
dag = ChainDAGRef.init(
forkedState[].kind.genesisTestRuntimeConfig, db, validatorMonitor, {})
fkChoice = newClone(ForkChoice.init(
dag.getFinalizedEpochRef(),
dag.finalizedHead.blck,
))
(dag, fkChoice)
proc loadOps(path: string, fork: BeaconStateFork): seq[Operation] =
let stepsYAML = readFile(path/"steps.yaml")
let steps = yaml.loadToJson(stepsYAML)
result = @[]
for step in steps[0]:
if step.hasKey"tick":
result.add Operation(kind: opOnTick,
tick: step["tick"].getInt())
elif step.hasKey"attestation":
let filename = step["attestation"].getStr()
let att = parseTest(
path/filename & ".ssz_snappy",
SSZ, Attestation
)
result.add Operation(kind: opOnAttestation,
att: att)
elif step.hasKey"block":
let filename = step["block"].getStr()
case fork
of BeaconStateFork.Phase0:
let blck = parseTest(
path/filename & ".ssz_snappy",
SSZ, phase0.SignedBeaconBlock
)
result.add Operation(kind: opOnBlock,
blck: ForkedSignedBeaconBlock.init(blck))
of BeaconStateFork.Altair:
let blck = parseTest(
path/filename & ".ssz_snappy",
SSZ, altair.SignedBeaconBlock
)
result.add Operation(kind: opOnBlock,
blck: ForkedSignedBeaconBlock.init(blck))
of BeaconStateFork.Bellatrix:
let blck = parseTest(
path/filename & ".ssz_snappy",
SSZ, bellatrix.SignedBeaconBlock
)
result.add Operation(kind: opOnBlock,
blck: ForkedSignedBeaconBlock.init(blck))
of BeaconStateFork.Capella:
let blck = parseTest(
path/filename & ".ssz_snappy",
SSZ, capella.SignedBeaconBlock
)
result.add Operation(kind: opOnBlock,
blck: ForkedSignedBeaconBlock.init(blck))
of BeaconStateFork.EIP4844:
raiseAssert $eip4844ImplementationMissing & ": test_fixture_fork_choice.nim:loadOps"
elif step.hasKey"attester_slashing":
let filename = step["attester_slashing"].getStr()
let attesterSlashing = parseTest(
path/filename & ".ssz_snappy",
SSZ, AttesterSlashing
)
result.add Operation(kind: opOnAttesterSlashing,
attesterSlashing: attesterSlashing)
elif step.hasKey"payload_status":
if step["payload_status"]["status"].getStr() == "INVALID":
result.add Operation(kind: opInvalidateRoot,
valid: true,
invalidatedRoot: Eth2Digest.fromHex(step["block_hash"].getStr()),
latestValidHash: Eth2Digest.fromHex(
step["payload_status"]["latest_valid_hash"].getStr()))
elif step.hasKey"checks":
result.add Operation(kind: opChecks,
checks: step["checks"])
else:
doAssert false, "Unknown test step: " & $step
if step.hasKey"valid":
doAssert step.len == 2
result[^1].valid = step["valid"].getBool()
elif not step.hasKey"checks" and not step.hasKey"payload_status":
doAssert step.len == 1
result[^1].valid = true
proc stepOnBlock(
dag: ChainDAGRef,
fkChoice: ref ForkChoice,
verifier: var BatchVerifier,
state: var ForkedHashedBeaconState,
stateCache: var StateCache,
signedBlock: ForkySignedBeaconBlock,
time: BeaconTime,
invalidatedRoots: Table[Eth2Digest, Eth2Digest]):
Result[BlockRef, VerifierError] =
# 1. Move state to proper slot.
doAssert dag.updateState(
state,
dag.getBlockIdAtSlot(time.slotOrZero).expect("block exists"),
save = false,
stateCache
)
# 2. Add block to DAG
when signedBlock is phase0.SignedBeaconBlock:
type TrustedBlock = phase0.TrustedSignedBeaconBlock
elif signedBlock is altair.SignedBeaconBlock:
type TrustedBlock = altair.TrustedSignedBeaconBlock
elif signedBlock is bellatrix.SignedBeaconBlock:
type TrustedBlock = bellatrix.TrustedSignedBeaconBlock
elif signedBlock is capella.SignedBeaconBlock:
type TrustedBlock = capella.TrustedSignedBeaconBlock
else:
doAssert false, "Unknown TrustedSignedBeaconBlock fork"
# In normal Nimbus flow, for this (effectively) newPayload-based INVALID, it
# is checked even before entering the DAG, by the block processor. Currently
# the optimistic sync test(s) don't include a later-fcU-INVALID case. Whilst
# this wouldn't be part of this check, presumably, their FC test vector step
# would also have `true` validity because it'd not be known they weren't, so
# adding this mock of the block processor is realistic and sufficient.
when not (
signedBlock is phase0.SignedBeaconBlock or
signedBlock is altair.SignedBeaconBlock):
let executionPayloadHash =
signedBlock.message.body.execution_payload.block_hash
if executionPayloadHash in invalidatedRoots:
# Mocks fork choice INVALID list application. These tests sequence this
# in a way the block processor does not, specifying each payload_status
# before the block itself, while Nimbus fork choice treats invalidating
# a non-existent block root as a no-op and does not remember it for the
# future.
let lvh = invalidatedRoots.getOrDefault(
executionPayloadHash, static(default(Eth2Digest)))
fkChoice[].mark_root_invalid(dag.getEarliestInvalidBlockRoot(
signedBlock.message.parent_root, lvh, executionPayloadHash))
return err VerifierError.Invalid
let blockAdded = dag.addHeadBlock(verifier, signedBlock) do (
blckRef: BlockRef, signedBlock: TrustedBlock,
epochRef: EpochRef, unrealized: FinalityCheckpoints):
# 3. Update fork choice if valid
let status = fkChoice[].process_block(
dag, epochRef, blckRef, unrealized, signedBlock.message, time)
doAssert status.isOk()
# 4. Update DAG with new head
var quarantine = Quarantine.init()
let newHead = fkChoice[].get_head(dag, time).get()
dag.updateHead(dag.getBlockRef(newHead).get(), quarantine)
if dag.needStateCachesAndForkChoicePruning():
dag.pruneStateCachesDAG()
let pruneRes = fkChoice[].prune()
doAssert pruneRes.isOk()
blockAdded
proc stepChecks(
checks: JsonNode,
dag: ChainDAGRef,
fkChoice: ref ForkChoice,
time: BeaconTime
) =
doAssert checks.len >= 1, "No checks found"
for check, val in checks:
if check == "time":
doAssert time.ns_since_genesis == val.getInt().seconds.nanoseconds()
doAssert fkChoice.checkpoints.time.slotOrZero == time.slotOrZero
elif check == "head":
let headRoot = fkChoice[].get_head(dag, time).get()
let headRef = dag.getBlockRef(headRoot).get()
doAssert headRef.slot == Slot(val["slot"].getInt())
doAssert headRef.root == Eth2Digest.fromHex(val["root"].getStr())
elif check == "justified_checkpoint":
let checkpointRoot = fkChoice.checkpoints.justified.checkpoint.root
let checkpointEpoch = fkChoice.checkpoints.justified.checkpoint.epoch
doAssert checkpointEpoch == Epoch(val["epoch"].getInt())
doAssert checkpointRoot == Eth2Digest.fromHex(val["root"].getStr())
elif check == "justified_checkpoint_root": # undocumented check
let checkpointRoot = fkChoice.checkpoints.justified.checkpoint.root
doAssert checkpointRoot == Eth2Digest.fromHex(val.getStr())
elif check == "finalized_checkpoint":
let checkpointRoot = fkChoice.checkpoints.finalized.root
let checkpointEpoch = fkChoice.checkpoints.finalized.epoch
doAssert checkpointEpoch == Epoch(val["epoch"].getInt())
doAssert checkpointRoot == Eth2Digest.fromHex(val["root"].getStr())
elif check == "best_justified_checkpoint":
let checkpointRoot = fkChoice.checkpoints.best_justified.root
let checkpointEpoch = fkChoice.checkpoints.best_justified.epoch
doAssert checkpointEpoch == Epoch(val["epoch"].getInt())
doAssert checkpointRoot == Eth2Digest.fromHex(val["root"].getStr())
elif check == "proposer_boost_root":
doAssert fkChoice.checkpoints.proposer_boost_root ==
Eth2Digest.fromHex(val.getStr())
elif check == "genesis_time":
# We do not store genesis in fork choice..
discard
else:
doAssert false, "Unsupported check '" & $check & "'"
proc doRunTest(path: string, fork: BeaconStateFork) =
let db = BeaconChainDB.new("", inMemory = true)
defer:
db.close()
let stores =
case fork
of BeaconStateFork.EIP4844:
raiseAssert $eip4844ImplementationMissing & ": test_fixture_fork_choice.nim:doRunTest"
of BeaconStateFork.Capella:
initialLoad(path, db, capella.BeaconState, capella.BeaconBlock)
of BeaconStateFork.Bellatrix:
initialLoad(path, db, bellatrix.BeaconState, bellatrix.BeaconBlock)
of BeaconStateFork.Altair:
initialLoad(path, db, altair.BeaconState, altair.BeaconBlock)
of BeaconStateFork.Phase0:
initialLoad(path, db, phase0.BeaconState, phase0.BeaconBlock)
var
taskpool = Taskpool.new()
verifier = BatchVerifier(rng: keys.newRng(), taskpool: taskpool)
let steps = loadOps(path, fork)
var time = stores.fkChoice.checkpoints.time
var invalidatedRoots: Table[Eth2Digest, Eth2Digest]
let state = newClone(stores.dag.headState)
var stateCache = StateCache()
for step in steps:
case step.kind
of opOnTick:
time = BeaconTime(ns_since_genesis: step.tick.seconds.nanoseconds)
let status = stores.fkChoice[].update_time(stores.dag, time)
doAssert status.isOk == step.valid
of opOnAttestation:
let status = stores.fkChoice[].on_attestation(
stores.dag, step.att.data.slot, step.att.data.beacon_block_root,
toSeq(stores.dag.get_attesting_indices(step.att.asTrusted)), time)
doAssert status.isOk == step.valid
of opOnBlock:
withBlck(step.blck):
let status = stepOnBlock(
stores.dag, stores.fkChoice,
verifier, state[], stateCache,
blck, time, invalidatedRoots)
doAssert status.isOk == step.valid
of opOnAttesterSlashing:
let indices =
check_attester_slashing(state[], step.attesterSlashing, flags = {})
if indices.isOk:
for idx in indices.get:
stores.fkChoice[].process_equivocation(idx)
doAssert indices.isOk == step.valid
of opInvalidateRoot:
invalidatedRoots[step.invalidatedRoot] = step.latestValidHash
of opChecks:
stepChecks(step.checks, stores.dag, stores.fkChoice, time)
else:
doAssert false, "Unsupported"
proc runTest(testType: static[string], path: string, fork: BeaconStateFork) =
const SKIP = [
# protoArray can handle blocks in the future gracefully
# spec: https://github.com/ethereum/consensus-specs/blame/v1.1.3/specs/phase0/fork-choice.md#L349
# test: tests/fork_choice/scenarios/no_votes.nim
# "Ensure the head is still 4 whilst the justified epoch is 0."
"on_block_future_block",
# TODO on_merge_block
"too_early_for_merge",
"too_late_for_merge",
"block_lookup_failed",
"all_valid",
]
test testType & " - " & path.relativePath(SszTestsDir):
when defined(windows):
# Some test files have very long paths
skip()
else:
if os.splitPath(path).tail in SKIP:
skip()
else:
doRunTest(path, fork)
template fcSuite(suiteName: static[string], testPathElem: static[string]) =
suite "EF - " & suiteName & preset():
const presetPath = SszTestsDir/const_preset
for kind, path in walkDir(presetPath, relative = true, checkDir = true):
let testsPath = presetPath/path/testPathElem
if kind != pcDir or not dirExists(testsPath):
continue
if path.contains("eip4844"):
continue
let fork = forkForPathComponent(path).valueOr:
raiseAssert "Unknown test fork: " & testsPath
for kind, path in walkDir(testsPath, relative = true, checkDir = true):
let basePath = testsPath/path/"pyspec_tests"
if kind != pcDir:
continue
for kind, path in walkDir(basePath, relative = true, checkDir = true):
runTest(suiteName, basePath/path, fork)
fcSuite("ForkChoice", "fork_choice")
fcSuite("Sync", "sync")